File sharing via link generation

ABSTRACT

Users specify that a file set comprising their files, folders, or other content owned by the users should be made accessible via a link, such as a uniform resource locator (URL). The system which stores and provides access to the files accordingly creates a link that specifies the file set to be made accessible. The users may distribute the link to recipients with whom the file set is to be shared, and the distribution may be performed in any manner that the users choose.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/651,741, filed Jul. 17, 2017, now U.S. Pat. No. 10,212,211, which isa continuation of U.S. patent application Ser. No. 14/701,534, filed May1, 2015, now U.S. Pat. No. 9,716,742, which is a continuation of Ser.No. 13/217,944, filed on Aug. 25, 2011, now U.S. Pat. No. 9,049,176,which is in turn a continuation of PCT application PCT/US2011/041531,filed on Jun. 22, 2011, all of which are incorporated herein byreference in their entireties.

TECHNICAL FIELD

The disclosed embodiments relate generally to sharing of data over anetwork. In particular, the disclosed embodiments are directed tosharing of user files via user-generated links.

BACKGROUND

It is now common for an individual to regularly use multiple computersfrom multiple different locations. A typical user may have a firstcomputer at the office and a second computer at home, for example, aswell as a portable computer, and a web-enabled mobile device such as asmartphone. To have ready access to the user's content, it is desirablefor the user to share his files between these multiple computers.

One way to share files between these multiple computers is to manuallytransfer the files from one to the other—for example, a user may e-mailhimself a copy of a file he is working on before leaving the office, sothat he can resume working on it later from home. If the user forgets toe-mail or bring the file home with him, he must either go back to theoffice to retrieve it, or perhaps simply wait until the next day.Alternatively the user can attempt to remotely access to his workcomputer, for example using a virtual private network (VPN) to access acorporate network from a remote location, but only if such access isauthorized. However, if the user is accessing the document remotely andloses his connection, he may lose his changes, be unable to continue,and may end up with a corrupted document.

Another attempt to solve this problem has involved the use of networkstorage devices, whereby services offer users the opportunity to storetheir documents “in the cloud”—that is, on servers accessible to usersvia the Internet or other network. In the above example, a user who isinterested in working on a document from multiple locations can storethe document on a network file server and then edit it from home, work,or any other location that provides network access to the file server.

SUMMARY

A file access server enables a user to obtain a URL or other resourceidentifier (generally, a “link”) that can be shared with others, andwhich provides access to one or more files or file folders (generally, a“file set”) managed by the user and stored on a network storage deviceoperated by a file access service. The file access server generates thelink and associates it with the file set specified by the user as partof the request. To generate the link, the file access server determinesan identifier for file set that is to be referenced and creates a uniquelink mapped internally by the file access server to the referenced fileset. In one embodiment, the link is opaque, such that it is impossiblefor a person not in possession of the link to determine the associatedfiles or folders by inspection only, or to guess the link that providesaccess to a given file set. In other embodiments, the link contains aname of the files or folders in the associated file set.

In some embodiments, the links may be associated with other links, thusallowing multiple levels of indirection, and they may specify anapplication or plug-in used to view or otherwise interact with theassociated file set.

The user may distribute the link to one or more recipients, who accessthe shared file set by following the link. The distribution of the linkby the user can be by e-mail, text, or social media service, such thatthe user can target a narrow or a wide audience.

The request from the user to create the link can be accomplished inmultiple ways. For example, a user can use a web-based interface to thefile access service, or a local client program coupled to the fileaccess service, such as a file browser on a desktop computer or a fileviewer on a handheld device, to create a link to the selected file set.

In one embodiment, the server itself facilitates distributing the link,such as by providing a mechanism for posting the link to a socialnetworking service or to a microblogging service. Alternatively, theuser distributes the link without further use of the server, such as byemailing the link to a mailing list, by posting the link on a web site,or the like.

In one embodiment, the server provides to the user a list of links thathe has previously created. The user can revoke access to the sharedfiles or other content simply by disabling or deleting the links.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an environment in which sharing can beperformed, according to one embodiment.

FIG. 2 is a block diagram illustrating the components of the file accessserver of FIG. 1, according to one embodiment.

FIGS. 3A-3C are user interface diagrams illustrating different userinterfaces for specifying the creation of a link for file set sharing,according to different embodiments.

FIG. 3D is a user interface diagram illustrating a representation of ashared file.

FIG. 3E is a user interface diagram illustrating a link management userinterface.

FIG. 3F is a user interface diagram illustrating a representation of ashared folder.

FIG. 3G illustrates a user interface control that enables a user to makea local copy of a shared file.

FIG. 4 is a flowchart illustrating the actions involved in creating alink to files or other content and accessing that content via the link,according to one embodiment.

The figures depict various embodiments of the present invention forpurposes of illustration only. One skilled in the art will readilyrecognize from the following description that other alternativeembodiments of the structures and methods illustrated herein may beemployed without departing from the principles of the inventiondescribed herein.

DETAILED DESCRIPTION

FIG. 1 illustrates a file access server 100 in accordance with oneembodiment. File access server 100 includes a sharing module 105 andfile server 103. Sharing module 105 provides functionality for sharablefile links as described below. File server 103 provides network filestorage for clients 110A and 110B of a file access service that includesfile access server 100. For example, a first client 110A may store oneor more files 111 on file server 103; a second client 110B may store oneor more files 112 on file server 103. In some embodiments, softwareexecuting on the client 110 integrates the network-stored files with theclient's local file system to enable a user to manipulate thenetwork-stored files through the same user interface (UI) as is used tomanipulate files on the local file system, e.g., via a file explorer. InFIG. 1, file sets 111 and 112 are illustrated within clients 110A and110B with dotted lines to illustrate this integration; the files in theset are understood to reside on file server 103. Note that in someembodiments, clients 110 may additionally maintain a cache of the filesets stored on the network file server 103, to improve speed andreliability. Those of skill in the art will recognize that variousmethods exist to maintain synchronization between local and networkbased files. In other embodiments, clients 110 access file sets via aweb interface, or through a custom-designed client installed on a clientdevice. Devices might include, for example, a desktop or laptopcomputer, a tablet computing device, or a handheld computing device suchas a personal digital assistant or a smart phone (e.g., an IPHONE orBLACKBERRY, or a SYMBIAN or ANDROID-based smart phone). One provider ofa suitable file access service is Dropbox Inc., of San Francisco, Calif.

FIG. 1 illustrates only two clients, 110A and 110B, for purposes ofclarity. When implemented, file access server 100 may be incommunication with thousands or millions of clients, and each client maystore one or multiple files on file access server 100. When representedto the user, the files may be arranged in folders; and foldersthemselves may be arranged in other folders, as determined by the user;however, the underlying storage architecture may be considerablydifferent, and implemented to maximize storage efficiency, and withoutnecessarily mirroring each user's file hierarchy. File access server 100and its components may be implemented using any appropriate hardware forperforming file serving and storage—solely for clarity of illustrationand description, FIG. 1 illustrates only a single file access server,and one instance of relevant file stores and modules. Additionally, manycomponents required for operation of a file access server and service,known to those of skill in the art but not germane to thisdescription—for example, network cards, CPUs, memory, and the like—areomitted for clarity.

FIG. 1 also illustrates a visitor 120, to whom a sharable link can beprovided. As described further below, a visitor 120 need not have clientsoftware installed, and need not be a user of file access server 100, inorder to access files via a shared link.

Network 140 represents the communication pathways between the clientdevices 110 and the file access server 100. In one embodiment, thenetwork 140 uses standard Internet communications technologies and/orprotocols. Thus, the network 140 can include links using technologiessuch as Ethernet, IEEE 802.11, IEEE 806.16, WiMAX, 3GPP LTE, integratedservices digital network (ISDN), asynchronous transfer mode (ATM), etc.Similarly, the networking protocols used on the network 140 can includethe transmission control protocol/Internet protocol (TCP/IP), thehypertext transport protocol (HTTP), the simple mail transfer protocol(SMTP), the file transfer protocol (FTP), etc. The data exchanged overthe network 140 can be represented using technologies and/or formatsincluding the hypertext markup language (HTML), the extensible markuplanguage (XML), etc. In addition, all or some links can be encryptedusing conventional encryption technologies such as the secure socketslayer (SSL), Secure HTTP (HTTPS) and/or virtual private networks (VPNs).In another embodiment, the entities can use custom and/or dedicated datacommunications technologies instead of, or in addition to, the onesdescribed above.

Clients 110 add files to file server 103 either through a manual uploadprocess, or by synchronization with the local file system. In theembodiment using synchronization, each client 110 executes asynchronization client application through which files 111 of thatclient are specified for synchronization. The synchronization clientapplication then provides the specified files to the file access server100. The specified files 111 are then provided to other ones of theclients 110, either by “push” in which the file access server 100provides the files to the clients associated with a user who providedthe files, or by “pull” in which the clients request the files from thefile access server. The synchronization client applications and the fileaccess server 100 also ensure that changes to the synchronized files arelikewise reflected across all associated clients 110.

In one embodiment, the synchronization client applications use localpeer-to-peer synchronization for greater efficiency and do not requireuse of the file access server 100. For example, devices associated withthe same user or having access to the same shared folder can determinewhether they are on the same local area network, and if so establish asecure connection (e.g., via SSL) and effect synchronization throughpeer-to-peer transfer of files.

The synchronized files are typically provided only to clients 110associated with a user who provided the files. For example, if aparticular user registers his desktop, laptop, and handheld device withthe file access server 100 as his client devices 110, then the fileaccess server and the synchronization applications on those threedevices will synchronize the files with those devices and otherwise makethe file available to the user via the user's login (e.g., via aweb-based interface). However, the file access server 100 will not bydefault make the files available to devices of other users or via loginsother than that of the user who provided the files.

Thus, the file access server 100 comprises a sharing module 105 thatprovides links and enables file access by users other than those whoinitially provided the files. The sharing module 105 is describedfurther below with respect to FIG. 2.

FIG. 2 is a block diagram illustrating the components of the sharingmodule 105 of FIG. 1, according to one embodiment. The sharing module105 enables access to a user's specified file sets through the use of ashared link.

Sharing module 105 comprises a sharing database 220 specifying sets offiles to be shared and the links used to share them. The sharing module105 further comprises a link generation module 230 for generating linksand specifying corresponding file sets to be shared, a link distributionmodule 240 for facilitating distribution of the links to other users, alink management module 250 for viewing and removing previously generatedlinks, and a file access module 260 for accessing the files via thegenerated links.

The sharing database 220 specifies sets of files to be shared and amapping between the shared files and the links used to reference them.For example, the sharing database might comprise a set of pairs, eachpair mapping a particular file set to a unique link (e.g., a URL) bywhich the file set can be accessed.

The link generation module 230 generates a link corresponding to thefile set specified by the user requesting the sharing. The file set towhich the link corresponds may include a single file or a set of files,or a container of files such as one or more folders, or even particularlogical content such as a particular time sequence of a video file,particular slides of a presentation file, or particular records from adatabase constructed from multiple files.

The link unambiguously identifies within sharing module 105 the file setto which it corresponds. In one embodiment, upon receiving a request toshare a particular file set via a link, the link generation module 230generates a file set descriptor unambiguously describing the file set tobe shared and a unique URL that serves as the link, and then saves anassociation of the file set descriptor and the URL in the sharingdatabase 220. In one embodiment, the generated link is independent ofthe file set descriptor, such that the file set descriptor cannot beinferred from the link, and vice versa. This prevents malfeasance bymaking it essentially impossible to guess a sharable link if it is notalready known. As an example, when sharing a folder “JuneDocs” with afile ID of 3D8B99, the link generation module 230 might generate theunique (e.g., one way pad, or a pseudo-random value) URLhttps://www.service.com/s/28rtiz608u2mnco/newdoc.pdf, where the URLcomponent 28rtiz608u2mnco cannot be reverse-engineered, and accordinglycreate an entry <3D8B99,https://www.service.com/s/28rtiz608u2mnco/newdoc.pdf in the sharingdatabase 220. In one embodiment, the generated link can further beshortened. Referring to the prior example, the generated URLhttps://www.service.com/s/28rtiz608u2mnco/newdoc.pdf can be shortened bya link-shortening service, located either on the file access service 100or on some remote third party system, to the shorter URLhttp://db.tt/xOFounw, and an additional association between thegenerated link and the shortened link added to the sharing database 220.In another embodiment, the file set can be directly associated with ashortened link, rather than with an intermediate, longer generated linksuch as that described above. In various embodiments, the user canselect a combination of a single file, multiple files within a folder,multiple folders, and multiple files across multiple folders as the fileset to be associated with the single shared link.

In one embodiment, a user can generate multiple different links to thesame file set. Thus, the user can more selectively control access to thefile set by distributing different ones of the multiple different linksto different sets of people, revoking access to the file set (if needed)via certain ones of the links while maintaining access via the otherlinks. In another embodiment, an attempt to obtain a link to a file setfor which a link has already been generated results in providing thesame link that was originally generated.

In one embodiment, a user may specify a particular application orplug-in with which the file set should be viewed or otherwise interactedwith. For example, an identifier that uniquely identifies an applicationor plug-in can be embedded within the generated link. As a more concreteexample, the generated link for a given file set could be the URLhttps://www.service.com?app=1ps3q/s/28rtiz608u2mnco/newdoc.pdf, whichspecifies (via the portion “app=1ps3q”) that some application uniquelyassociated with the identifier “ips3q” should be used to view the fileset. Alternatively, the association between the link and the applicationor plug-in can be made in the sharing database 220 itself, rather thanbeing embedded in the link. For example, a user could generate a firstlink to a file set that specifies use of a first application for viewingthe file set, and a second link that specifies use of a secondapplication, and the sharing database 220 would in turn then contain twocorresponding entries: <file set identifier, first link identifier,first application identifier>, and <file set identifier, second linkidentifier, second application identifier>. In another embodiment, thesharing module 105 itself selects the proper applications or plug-ins touse, e.g., based on the types of the files in the file set.

In one embodiment, links can be associated with other links so as tocreate a chain of links. For example, a first generated link associatedwith a file set can in turn be automatically associated with a shortenedlink, as discussed above. Further, users can explicitly specify multipledegrees of link associations. For example, a user could requestgeneration of a first link to a given file set, and then requestgeneration of one or more secondary links that are associated with thefirst link.

The user request that causes the link generation module 230 to generatea link can be specified in different manners in different embodiments.For example, the request can be made using the user interface providedby the client synchronization applications running on the clients 110,such as by designating a file within a file browser application andchoosing a “Get shareable link” option 305 from a resultingcontext-sensitive menu, as depicted in FIG. 3A, or by clicking a linkicon 310 within a file viewing application on a handheld device, asdepicted in FIG. 3B. As another example, the request can be made from aweb-based interface provided by the file access server 100, such as thatdepicted in FIG. 3C, in which the interface includes a web-based listingof files 316 stored on the file access server 100 and a “Get shareablelink” menu item 316 associated with the various files.

In one embodiment, the sharing module 105 provides a web-based userinterface displaying the generated link, such as the interface depictedin FIG. 3D. Specifically, in FIG. 3D the text field 355 displays thelink generated for sharing an image file, a representation of which isshown in viewing area 357. Further, a sharing options area 356 providesoptions for distributing the generated link, e.g., via social networks.

The link distribution module 240 of FIG. 2 facilitates distribution ofthe links to users other than the users on behalf of whom the links weregenerated. For example, referring again to FIG. 3D, the options area 356includes an option 356A for distributing the generated link via amicroblogging service, and another option 356B for distributing thegenerated link via a social networking service. Selection of eitheroption prompts the user for the user's login information for theselected service. Assuming that correct login information is provided,the link distribution module 240 then uses an API of the selectedservice to disseminate the link via the service, such as adding it as apost to a user's page on the social networking service, or sending it aspart of a textual message on the microblogging service. Those to whom tolink is provided may in turn provide the link to others, thereby furtherdisseminating the sharing of the associated file set.

The link management module 250 permits a user to manage the links thathe or she has previously generated. For example, a user selecting the“Linked Items” portion 371 of a user interface 370 of FIG. 3E causes thelink management module 250 to query the sharing database 220 for all thelinks that have been generated for that user and to display a list ofthe links in the list area 372. Each link has associated “Get link” and“Remove” actions 374, 375. The “Get link” action 374 displays the textof the link (e.g., URL) for dissemination by the user, as in text field355 of FIG. 3D. The “Remove” action 375 revokes access to other usersvia that link, such as by deleting the entry for that link from thesharing database 220. Thus, no matter how large the set of users thathave obtained the link—and thus access to the corresponding file set—theuser that created the link can quickly and easily revoke the accesssimply by removing the link.

The file access module 260 provides the shared file set and/orrepresentations thereof to clients 110 in response to requests made viathe generated link. For example, assume that a first user of the client110A of FIG. 1 generated a shortened link http://db.tt/xOFounw to afolder named “JuneDocs” with an ID of 3D8B99 and shared the link with asecond user of the client 110B, such as by sending the link to an emailaccount of the second user or posting the link to a social networkingservice accessible to the second user. When the second user clicks on orotherwise selects the link via the email or social networking service, abrowser application on the client 110B sends a corresponding request tothe sharing module 105. For the example in which the link is the URLhttp://db.tt/xOFounw, the browser sends an HTTP request to the hostdb.tt, which is a domain name of the file access server 100, includingthe parameter xOFounw. The request is handled by the file access module260, which locates the entry in the sharing database 220 correspondingto the parameter and extracts the associated file set ID (namely,3D8B99). Alternatively, if the folder is associated with a longer linkhttps://www.service.com/s/28rtiz608u2mnco/newdoc.pdf, and this longerlink is in turn associated with a shorter link http://db.tt/xOFounw,then the file access module first obtains the longer link from theshortened link using the link shortening service used to create theshortened link, and then determines the file set from the longer linkand the sharing database 220. (If the link has been removed, e.g. viathe “Remove” action 375 of FIG. 3E, the sharing database 220 will notcontain an entry for that link. Thus, the file access module 260 willaccordingly prevent access to the file set by informing the userrequesting the access to the file set that the file set is notavailable.)

The file access module 260 then displays a representation of the fileset corresponding to the file set ID. For example, referring again toFIG. 3D, which represents the sharing of a single image file, theviewing area 357 displays a representation of the file—namely, athumbnail view. In one embodiment, the entity that receives and accessesthe shared link may be a visitor 120, i.e., not a registered user offile access server 100.

In one embodiment, the file access module 260 displays therepresentation of the file set using an application or plug-incorresponding to a unique identifier embedded within, or otherwiseassociated with, the generated link, as discussed above. In oneembodiment, if the entity accessing the shared resources by shared linkis a registered user of file access server 100, the user has an optionof copying the shared files to her own file space on file server 103.FIG. 3G illustrates a user interface control 356C that enables the userto make such a copy. Note that in one embodiment the copy is a staticcopy, such that if the original sharing user makes subsequent changes tothe shared file, the changes are not reflected in the version of thefile copied by the user with whom the link was shared.

FIG. 3F represents the sharing of a folder named “JuneDocs”. The textfield 355 again contains a URL link by which the folder is shared, andthe sharing options area 356 provides options for distributing the link.Each distinct type of file within the folder is displayed within one ofthe separate groups 380, 385, 390. The type may be determined in variousways, such as a file extension or other file metadata, or the content ofthe file itself. For example, group 380 includes the subfolders of the“JuneDocs” folder, group 385 includes the two image files that arewithin the folder, and group 390 includes a textual document 390A.

Each file (including folders) in the “JuneDocs” folder has an associatedpreview representation—namely, previews 380A, 385A, 385B, and 390A. Theform of the preview may be specific to the type of the associated file,such as an image of a folder and the associated folder name for folders380, image thumbnails for the images 385, and a document icon and anassociated document name for the textual documents 390. Selecting one ofthe preview representations causes the corresponding file to bedisplayed. For example, selecting a preview representation of a folderdisplays the contents of the folder, and selecting a previewrepresentation of an image obtains a copy of the entire correspondingfile, e.g., displaying the image at full size within a browser window orsaving the original file to local file system on the client 110.

In one embodiment, in order to reduce storage requirements for the fileaccess server 100, the document preview for a file is generated ondemand the first time that the file is viewed, as opposed to beinggenerated when the file is first stored in the file repository 210.

FIG. 4 is a flowchart illustrating the actions involved in creating alink to files or other content and accessing that content via the link,according to one embodiment.

The file access server 100 stores 410 a file within the file repository210. As discussed above, the file could be manually uploaded by one ofthe clients 110, or it could be stored as a result of filesynchronization resulting from coordination of the file access server100 and synchronization client applications installed on the clients110, for example.

The sharing module 105 receives 420 an instruction from a user of aclient 110 to share a particular file set that includes the stored file,such as one or more individual files, one or more folders of files, ormeaningful portions of files or other content. The request might be, forexample, the result of one of the user interface actions depicted inFIGS. 3A-3C.

Responsive to receiving the request, the sharing module 105 generates430 a link specifying the file set, as discussed above with respect tothe link generation module 230. The link may then be displayed to theuser via a user interface such as that of FIG. 3D or 3F. A user maymanually distribute the link to others with whom the associated file isto be shared, or may use the optional link distribution module 240 tofacilitate the distribution.

The sharing module 105 receives 440, from a second client (e.g., client110B of FIG. 1) located remotely from the first client (e.g., client110A) that made the request to share the file set, an access request viathe link. The file access module 260 then provides 450 a representationof the file set, as described above.

Reference in the specification to “one embodiment” or to “an embodiment”means that a particular feature, structure, or characteristic describedin connection with the embodiments is included in at least oneembodiment. The appearances of the phrase “in one embodiment” in variousplaces in the specification are not necessarily all referring to thesame embodiment.

It should be noted that the process steps and instructions can beembodied in software, firmware or hardware, and when embodied insoftware, can be downloaded to reside on and be operated from differentplatforms used by a variety of operating systems.

The operations herein may also be performed by an apparatus. Thisapparatus may be specially constructed for the required purposes, or itmay comprise a general-purpose computer selectively activated orreconfigured by a computer program stored in the computer. Such acomputer program may be stored in a computer readable storage medium,such as, but is not limited to, any type of disk including floppy disks,optical disks, CD-ROMs, magnetic-optical disks, read-only memories(ROMs), random access memories (RAMs), EPROMs, EEPROMs, magnetic oroptical cards, application specific integrated circuits (ASICs), or anytype of media suitable for storing electronic instructions, and eachcoupled to a computer system bus. Furthermore, the computers referred toin the specification may include a single processor or may bearchitectures employing multiple processor designs for increasedcomputing capability.

The algorithms and displays presented herein are not inherently relatedto any particular computer or other apparatus. Various general-purposesystems may also be used with programs in accordance with the teachingsherein, or it may prove convenient to construct more specializedapparatus to perform the required method steps. The required structurefor a variety of these systems will appear from the description below.In addition, the present invention is not described with reference toany particular programming language. It will be appreciated that avariety of programming languages may be used to implement the teachingsof the present invention as described herein, and any references belowto specific languages are provided for disclosure of enablement and bestmode of the present invention.

While the invention has been particularly shown and described withreference to a preferred embodiment and several alternate embodiments,it will be understood by persons skilled in the relevant art thatvarious changes in form and details can be made therein withoutdeparting from the spirit and scope of the invention.

Finally, it should be noted that the language used in the specificationhas been principally selected for readability and instructionalpurposes, and may not have been selected to delineate or circumscribethe inventive subject matter. Accordingly, the disclosure of the presentinvention is intended to be illustrative, but not limiting, of the scopeof the invention, which is set forth in the following claims.

What is claimed is:
 1. A computer-implemented method comprising:generating, by a server, a link associated with at least one file storedon the server in response to a first link request from a first clientdevice of a first user, the at least one file synchronized with thefirst client device, the link providing access to a representation ofthe at least one file; receiving, by the server, a modification to theat least one file; updating, by the server, the at least one file storedon the server to include the modification, wherein, after the updatingof the at least one file, the representation accessed by the linkincludes the modification.
 2. The computer-implemented method of claim1, further comprising: receiving, from a second client device of asecond user, a request to access the at least one file via the link; andproviding the representation of the at least one file to the secondclient device.
 3. The computer-implemented method of claim 1, whereinthe representation of the at least one file is a preview of the at leastone file.
 4. The computer-implemented method of claim 1, wherein thelink is associated with a folder containing a set of files including theat least one file.
 5. The computer-implemented method of claim 1,wherein the link indicates a native application associated with the atleast one file.
 6. The computer-implemented method of claim 1, furthercomprising generating a second link in response to a second linkrequest, the second link providing access to the representation of theat least one file.
 7. The computer-implemented method of claim 1,further comprising: removing the link in response to a delete request;and after deleting the link, receiving a request to access the at leastone file via the link; and denying access to the at least one file.
 8. Anon-transitory computer-readable storage medium storing instructionsthat when executed by one or more computer processors of a file accessserver cause the one or more computer processors to perform actionscomprising: generating, by a server, a link associated with at least onefile stored on the server in response to a first link request from afirst client device of a first user, the at least one file synchronizedwith the first client device, the link providing access to arepresentation of the at least one file; receiving, by the server, amodification to the at least one file; updating, by the server, the atleast one file stored on the server to include the modification,wherein, after the updating of the at least one file, the representationaccessed by the link includes the modification.
 9. The non-transitorycomputer-readable storage medium of claim 8, the actions furthercomprising: receiving, from a second client device of a second user, arequest to access the at least one file via the link; and providing therepresentation of the at least one file to the second client device. 10.The non-transitory computer-readable storage medium of claim 8, whereinthe representation of the at least one file is a preview of the at leastone file.
 11. The non-transitory computer-readable storage medium ofclaim 8, wherein the link is associated with a folder containing a setof files including the at least one file.
 12. The non-transitorycomputer-readable storage medium of claim 8, wherein the link indicatesa native application associated with the at least one file.
 13. Thenon-transitory computer-readable storage medium of claim 8, the actionsfurther comprising generating a second link in response to a second linkrequest, the second link providing access to the representation of theat least one file.
 14. The non-transitory computer-readable storagemedium of claim 8, the actions further comprising: removing the link inresponse to a delete request; and after deleting the link, receiving arequest to access the at least one file via the link; and denying accessto the at least one file.
 15. A file access server comprising: one ormore computer processors; and a non-transitory computer-readable storagemedium storing instructions that when executed by one or more computerprocessors cause the one or more computer processors to perform actionscomprising: generating, by a server, a link associated with at least onefile stored on the server in response to a first link request from afirst client device of a first user, the at least one file synchronizedwith the first client device, the link providing access to arepresentation of the at least one file; receiving, by the server, amodification to the at least one file; updating, by the server, the atleast one file stored on the server to include the modification,wherein, after the updating of the at least one file, the representationaccessed by the link includes the modification.
 16. The file accessserver of claim 15, the actions further comprising: receiving, from asecond client device of a second user, a request to access the at leastone file via the link; and providing the representation of the at leastone file to the second client device.
 17. The file access server ofclaim 15, wherein the representation of the at least one file is apreview of the at least one file.
 18. The file access server of claim15, wherein the link is associated with a folder containing a set offiles including the at least one file.
 19. The file access server ofclaim 15, wherein the link indicates a native application associatedwith the at least one file.
 20. The file access server of claim 15, theactions further comprising generating a second link in response to asecond link request, the second link providing access to therepresentation of the at least one file.